Arnold School study details bacterial communication

If you think your family’s talking is too loud at times, just consider the noise level if you could hear what the bacteria around you are saying.

Arnold School of Public Health researcher Dr. Alan Decho, in collaboration with colleagues Dr. Rebecca L. Frey and Dr. John L. Ferry of the University of South Carolina’s department of chemistry and biochemistry, conducted an extensive review of emerging information on bacterial communication within natural environments.

The report, featured on the cover of the January issue of Chemical Reviews, is the most comprehensive to date about bacterial communication – a process now known as quorum sensing – in the natural environment, said Decho, director of the Arnold School’s Microbial Interactions Laboratory.

“Quorum sensing, which is the cell-to-cell communication among bacteria, occurs when bacteria produce, release and respond to chemical-signal molecules,” said Decho, a leading scientist in the study of quorum sensing.

While in-depth studies have been done on quorum sensing in the laboratory under controlled conditions, few studies have been done to understand what effects and challenges the natural environment may pose to communication among bacteria or unexpected avenues for cell-to-cell chemical signaling.

“Bacteria are incredibly adaptable, and we only understand a small fraction of how they may act as a group either in nature or in our bodies,” Decho said. “At times, they may appear to be acting as an organism and not a single cell.”

Further, he said, bacteria appear to work together at times to achieve common goals, such as the digestion of food in the intestines.

“This communication can allow bacteria to coordinate their expression of genes and enable them to glean information from their environment and coordinate behavior within their community,” said Decho. “It operates like a highly efficient city (of bacteria) with excellent energy management, transportation of goods and food and managing safety (against invaders) but always making minor adjustments to changing conditions.”